Concepts of evolution, natural selection, speciation

1. Introduction to Evolution

Evolution refers to the gradual change in the characteristics of organisms over generations.
It explains the diversity of life on Earth.
Evolution occurs due to genetic variations, mutations, natural selection, and environmental factors.
The study of evolution is based on fossil records, comparative anatomy, molecular biology, and embryology.

Lamarck’s Theory of Inheritance of Acquired Characteristics: Proposed that traits acquired during an organism’s lifetime are passed to offspring (e.g., giraffe’s long neck).
Darwin’s Theory of Natural Selection: States that individuals with beneficial traits survive and reproduce, while those with less favorable traits perish.
Mutation Theory: Proposed by Hugo de Vries, stating that sudden changes in genes (mutations) cause evolution.
Modern Synthetic Theory: Combines Darwin’s Natural Selection with genetics, explaining evolution through mutation, genetic drift, gene flow, and recombination.

Natural Selection is the process where organisms better adapted to their environment survive and reproduce.
It was proposed by Charles Darwin in his book On the Origin of Species (1859).
Key principles of natural selection:
- Variation: Differences exist within populations.
- Overproduction: More offspring are produced than can survive.
- Struggle for Existence: Organisms compete for limited resources.
- Survival of the Fittest: Those with advantageous traits survive.
- Heredity: Beneficial traits are passed to the next generation.
Examples:
- Industrial Melanism: Dark-colored moths became more common than light-colored ones due to pollution.
- Antibiotic Resistance: Bacteria evolve resistance to antibiotics.
- Darwin’s Finches: Different species of finches evolved due to variations in beak shape based on food availability.

Fossil Records: Show gradual changes in species over time.
Comparative Anatomy:
- Homologous Structures: Similar structures with different functions (e.g., human arm and bat wing).
- Analogous Structures: Different structures with similar functions (e.g., wings of birds and insects).
- Vestigial Organs: Reduced and functionless organs (e.g., human appendix, whale pelvis).
Embryology: Similar embryonic development in different species suggests a common ancestor.
Molecular Biology: Similar DNA, proteins, and genetic material among species.

Speciation is the process by which new species evolve from existing ones.
It occurs due to genetic isolation, natural selection, and environmental changes.
Types of speciation:
- Allopatric Speciation: Occurs due to geographic barriers (e.g., mountains, rivers).
- Sympatric Speciation: Occurs without geographic separation, due to genetic changes.
- Peripatric Speciation: A small population becomes isolated and evolves.
- Parapatric Speciation: Populations evolve separately in adjacent areas with different environmental conditions.

Mutation: Sudden changes in DNA leading to genetic variation.
Genetic Drift: Random changes in allele frequency, affecting small populations.
Gene Flow: Movement of genes between populations due to migration.
Natural Selection: Favorable traits increase survival chances.
Reproductive Isolation: Prevents interbreeding between different species.